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30 April, 03:31

Starting from rest, a basketball rolls from top of a hill to the bottom, reaching a translational speed of 6.8 m/s. Ignore frictional force losses. a. What is the height of the hill? b. Released from the same height, a can of frozen juice rolls to the bottom of the same hill. c. What is the translational speed of the frozen juice can when it reaches the bottom?

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  1. 30 April, 03:42
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    for baseball

    (a) Let the mass of the baseball is m.

    radius of baseball is r.

    Total kinetic energy of the baseball, T = rotational kinetic energy + translational kinetic energy

    T = 0.5 Iω² + 0.5 mv²

    Where, I be the moment of inertia and ω be the angular speed.

    ω = v/r

    T = 0.5 x 2/3 mr² x v²/r² + 0.5 mv²

    T = 0.83 mv²

    According to the conservation of energy, the total kinetic energy at the bottom is equal to the total potential energy at the top.

    m g h = 0.83 mv²

    where, h be the height of the top of the hill.

    9.8 x h = 0.83 x 6.8 x 6.8

    h = 3.93 m

    (b) Let the velocity of juice can is v'.

    moment of inertia of the juice can = 1/2mr²

    So, total kinetic energy

    T = 0.5 x I x ω² + 0.5 mv²

    T = 0.5 x 0.5 x m x r² x v²/r² + 0.5 mv²

    m g h = 0.75 mv²

    9.8 x 3.93 = 0.75 v²

    v = 7.2 m/s
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